CN113984101A - Mobile assembly type house building frame beam quality detection device and method - Google Patents

Mobile assembly type house building frame beam quality detection device and method Download PDF

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Publication number
CN113984101A
CN113984101A CN202111268026.0A CN202111268026A CN113984101A CN 113984101 A CN113984101 A CN 113984101A CN 202111268026 A CN202111268026 A CN 202111268026A CN 113984101 A CN113984101 A CN 113984101A
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China
Prior art keywords
frame beam
detection device
assembly
quality
pipe
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CN202111268026.0A
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包海
赵培庆
王国青
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Civil Aviation Airport Construction Engineering Co Ltd
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Civil Aviation Airport Construction Engineering Co Ltd
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Priority to CN202111268026.0A priority Critical patent/CN113984101A/en
Publication of CN113984101A publication Critical patent/CN113984101A/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01DMEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
    • G01D11/00Component parts of measuring arrangements not specially adapted for a specific variable
    • G01D11/30Supports specially adapted for an instrument; Supports specially adapted for a set of instruments
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01DMEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
    • G01D21/00Measuring or testing not otherwise provided for
    • G01D21/02Measuring two or more variables by means not covered by a single other subclass

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  • General Physics & Mathematics (AREA)
  • Conveying And Assembling Of Building Elements In Situ (AREA)

Abstract

The invention discloses a quality detection device and a quality detection method for a movable assembly type building frame beam, and the quality detection device comprises a power device, a lifting device and a movable detection device, wherein the power device comprises a power vehicle, a battery assembly and a hydraulic pump assembly, the battery assembly and the hydraulic pump assembly are arranged in the power vehicle, the lifting device comprises a rotating seat connected to the power vehicle and a lifting mechanism connected to the rotating seat, the movable detection device comprises an aluminum pipe main frame connected to the lifting mechanism, a strong magnetic adsorption mechanism is arranged on the aluminum pipe main frame, a movable guide rail is arranged in the aluminum pipe main frame, a detector support is connected to the movable guide rail through an electric roller assembly, and a frame beam quality detector is connected to the detector support through bolts. The detection equipment is convenient to move and transport, good in detection stability, safe and reliable, and the detection method is more accurate and reliable.

Description

Mobile assembly type house building frame beam quality detection device and method
Technical Field
The invention relates to the field of house construction engineering detection, in particular to a mobile assembly type house construction frame beam quality detection device and method.
Background
At present, when a common cast-in-place frame beam is used for engineering quality inspection, the data of concrete strength, section size, adjacent spacing, axis deviation, frame top surface elevation and the like of the frame beam are generally detected, and whether the quality of the frame beam meets requirements or not is determined through data detection of the frame beam. The existing detection mode is that a worker steps on a frame through a ladder manually, walks on the frame, and operates a detection instrument in a handheld mode to detect the engineering quality of the bottom of a frame beam. The existing detection mode needs to perform ascending operation according to the height of a floor, has certain danger, low working efficiency and general detection precision, and the situation that data is modified may occur due to manual data recording.
Disclosure of Invention
The invention aims to provide a mobile assembly type house building frame beam quality detection device and method.
In order to achieve the purpose, the invention adopts the technical scheme that:
a movable assembled type quality detection device and method for a frame beam of a building are characterized by comprising a quality detection device and a detection method, wherein the quality detection device comprises a power device, a lifting device and a movable detection device, the power device comprises a power vehicle, a battery assembly and a hydraulic pump assembly, the battery assembly and the hydraulic pump assembly are arranged in the power vehicle, the lifting device comprises a rotating seat connected to the power vehicle and a lifting mechanism connected to the rotating seat, the movable detection device comprises an aluminum pipe main frame connected to the lifting mechanism, a strong magnetic adsorption mechanism is arranged on the aluminum pipe main frame, a movable guide rail is arranged in the aluminum pipe main frame, a detector support is connected to the movable guide rail through an electric roller assembly, and a frame beam quality detector is connected to the detector support through bolts;
the detection method comprises the following steps:
moving a quality detection device to a detection area, installing a moving detection device on a lifting mechanism, and installing a frame beam quality detector on the moving detection device;
step two, the rotating seat is adjusted to rotate, and the lifting mechanism drives the mobile detection device to rise, so that the mobile detection device is connected with the building frame beam;
thirdly, electrifying the strong magnetic adsorption mechanism and generating electromagnetic force, and attracting the strong magnetic adsorption mechanism with the steel bars in the building frame beam; the aluminum pipe main frame is tightly connected with the building frame beam through a strong magnetic adsorption mechanism;
and step four, detecting the bottom quality of the building frame beam by the frame beam quality detector, and moving the frame beam by the electric roller assembly during detection to detect the bottom quality of the building frame beam in different areas in the range of the aluminum pipe main frame one by one.
Preferably, the power vehicle comprises a frame, the lower end of the frame is connected with movable wheels, the upper end of the frame is provided with a carriage, a front battery accommodating area, a middle hydraulic pump accommodating area and a rear storage area are separated from the carriage through a carriage partition plate, and mounting slide rails are arranged in the front battery accommodating area and the middle hydraulic pump accommodating area;
the battery assembly is connected in the front battery mounting area through a mounting slide rail, and the hydraulic pump assembly is connected in the middle hydraulic pump mounting area through the mounting slide rail; the side of back storing district is connected with storage drawer, and the upper end in back storing district is provided with the controller.
Preferably, the rotating seat comprises a rotating motor arranged in the power vehicle, a rotating shaft sleeve arranged at the upper end of the power vehicle and a rotating positioning tray arranged at the upper end of the rotating shaft sleeve, the lower end of the rotating shaft sleeve is connected with the power vehicle through a first bearing assembly, and the upper end of the rotating shaft sleeve is connected with the rotating positioning tray; a rotating shaft rod of the rotating motor penetrates through the rotating shaft sleeve and then is connected with the rotating positioning tray;
the rotary positioning tray is provided with a plurality of threaded holes and is connected with the lower end of the lifting mechanism through first rotary positioning bolts in the threaded holes.
Preferably, the lifting mechanism comprises a first lifting assembly and a second lifting assembly arranged at the upper end of the first lifting assembly, the first lifting assembly comprises a first lower plate, a first upper top plate and a first telescopic fence arranged between the first lower plate and the first upper top plate, the lower end of the first telescopic fence is driven by a first telescopic electric cylinder assembly and connected with the first lower plate, and the upper end of the first telescopic fence is connected with the lower end face of the first upper top plate.
Preferably, the second lifting assembly comprises a second lower bottom plate, a second upper top plate and a second telescopic fence arranged between the second lower bottom plate and the second upper top plate, and the second lower bottom plate is connected with the first upper top plate through a bolt;
the lower end of the second telescopic fence is driven by the second telescopic electric cylinder assembly and is connected with the second lower bottom plate, and the upper end of the second telescopic fence is connected with the second upper top plate through a bolt.
Preferably, the second upper top plate is rectangular plate-shaped, and the upper end of the second upper top plate is connected with a third lengthened support plate for connecting the aluminum pipe main frame;
the third lengthened supporting plate is rectangular plate-shaped, the first lower bottom plate, the first upper top plate, the second lower bottom plate and the second upper top plate are all plastic plates, and the third lengthened supporting plate is an aluminum plate.
Preferably, the aluminum pipe main frame comprises a first front transverse pipe and a first rear transverse pipe, and the first front transverse pipe and the second rear transverse pipe are connected through a first left longitudinal pipe and a first right longitudinal pipe;
the left part of the first front transverse pipe and the left part of the first rear transverse pipe are both connected with a first left vertical pipe, and the right part of the first front transverse pipe and the right part of the first rear transverse pipe are both connected with a first right vertical pipe;
the strong magnetic adsorption mechanism comprises an electromagnet, an electromagnet electrifying wire and a first electrifying switch, the first left longitudinal pipe, the first right longitudinal pipe, the first left vertical pipe and the first right vertical pipe are all connected with an electromagnet, and the electromagnet is connected with the battery pack through the electromagnet electrifying wire and the first electrifying switch.
Preferably, the inner wall of the first front transverse pipe and the inner wall of the first rear transverse pipe are both provided with a first pipe body notch, and the moving guide rail is arranged on the inner side of the first pipe body notch;
the movable guide rail is in a rectangular shell shape and is a plastic shell, a positioning stepped groove is arranged in the movable guide rail, and the positioning stepped groove comprises an inner wide groove part and an inner narrow groove part;
the electric roller component comprises a rubber roller, a roller supporting rod and a roller motor connected to the lower end of the detector support, the rubber roller is connected to the inner wide groove, one end of the roller supporting rod penetrates through the outer narrow groove and then is connected with the rubber roller, and the other end of the roller supporting rod is connected with the detector support.
Preferably, the detector support comprises a support main board, the lower end of the support main board is connected with two groups of electric roller assemblies, and the two groups of electric roller assemblies are respectively connected to the lower end of the front part and the lower end of the rear part of the support main board;
the upper end of support mainboard is provided with the detector and places the box, and the adhesion has detector buffering cystosepiment on the inner wall that the box was placed to the detector.
Preferably, violently pipe and first back violently pipe are the combination sleeve pipe before first, the combination sleeve pipe includes pipe and the right pipe in the second left side pipe, the second, and the pipe connection in the second left side pipe passes through first flange ring subassembly and the second, and the pipe is connected with the right pipe of second in the second through second flange ring subassembly.
The invention has the beneficial effects that:
according to the quality detection equipment and method for the movable assembly type house building frame beam, firstly, the movable assembly type house building frame beam quality detection equipment with a brand-new structure is designed, and after the equipment is used, detection technicians do not need to climb to the high altitude to detect the cast-in-place concrete frame beam. In the invention, after the corresponding equipment is installed at the bottom of the frame beam, the quality detection can be carried out by operating. In order to improve the convenience of the whole detection, an imaging device such as a camera can be connected to the frame beam quality detector to perform auxiliary observation detection. The quality detection equipment for the frame beam of the building in the invention is safer and more reliable after use, the mobile detection device can stay at a high altitude more stably and reliably under the support of the lifting mechanism and the adsorption of the strong magnetic adsorption mechanism, and the slide rail mechanism is designed in the mobile detection device, so that the detection area and length of the frame beam quality detector are increased, more detection data can be provided, and the accuracy of final test data is improved.
Drawings
In order to clearly illustrate the embodiments or technical solutions of the present invention in the prior art, the drawings used in the description of the embodiments or prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.
Fig. 1 is an exploded schematic view of the overall structure and position of the mobile assembly type house building frame beam quality detection device.
Fig. 2 is a schematic diagram of the overall structure of the power plant.
FIG. 3 is a schematic view of the overall structure of the lifting device.
Fig. 4 is a schematic view of the overall structure of the movement detection device.
Fig. 5 is a schematic structural position diagram of the combined sleeve.
Detailed Description
The invention provides a mobile assembly type house building frame beam quality detection device and method, and the invention is further described in detail below in order to make the purpose, technical scheme and effect of the invention clearer and more clear and definite. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The invention is described in detail below with reference to the accompanying drawings:
example 1
With reference to fig. 1 to 5, a mobile assembled type building frame beam quality detection apparatus and method includes a quality detection apparatus and a detection method, the quality detection apparatus includes a power device 1, a lifting device 2 and a mobile detection device 3, the power device 1 includes a power vehicle 11, and a battery assembly 12 and a hydraulic pump assembly 13 disposed in the power vehicle 11.
The lifting device 2 comprises a rotating seat 21 connected to the power vehicle 11 and a lifting mechanism 4 connected to the rotating seat 21, the movement detection device 3 comprises an aluminum pipe main frame 31 connected to the lifting mechanism 4, a strong magnetic adsorption mechanism 5 is arranged on the aluminum pipe main frame 31, a movement guide rail 32 is arranged in the aluminum pipe main frame 31, a detector support 34 is connected to the movement guide rail 32 through an electric roller assembly 33, and a frame beam quality detector 35 is connected to the detector support 34 through bolts.
The detection method comprises the following steps:
step one, moving the quality detection equipment to a detection area, installing the movement detection device 3 on the lifting mechanism 4, and installing the frame beam quality detector 35 on the movement detection device 3.
And step two, the rotating seat 21 is adjusted to rotate, and the lifting mechanism 4 drives the mobile detection device 3 to lift, so that the mobile detection device 3 is connected with the building frame beam.
Thirdly, the strong magnetic adsorption mechanism 5 is electrified and generates electromagnetic force, and the strong magnetic adsorption mechanism 5 is attracted with the steel bars in the building frame beam; the aluminum pipe main frame 31 is tightly connected with the building frame beam through the strong magnetic adsorption mechanism 5.
And step four, detecting the bottom quality of the building frame beam by the frame beam quality detector 3, wherein the detected items comprise the thickness of the concrete at the bottom of the beam, the surface quality of the concrete at the bottom of the beam and whether exposed steel bars exist. During detection, the electric roller assemblies 33 move, and the bottom quality of the building frame beams in different areas in the range of the aluminum pipe main frame 31 is detected one by one.
The power vehicle 11 includes a vehicle frame 111, the lower end of the vehicle frame 111 is connected with a movable wheel 112, the upper end of the vehicle frame 111 is provided with a carriage, a front battery placing region, a middle hydraulic pump placing region and a rear storage region are separated from the inside of the carriage 113 through two carriage partition plates 114, and an installation slide rail 115 is arranged in each of the front battery placing region and the middle hydraulic pump placing region.
The battery assembly 12 is connected in the front battery mounting area through a mounting slide rail 115, and the hydraulic pump assembly 13 is connected in the middle hydraulic pump mounting area through the mounting slide rail 115; a storage drawer 116 is connected to the side end of the rear storage area, and a controller is provided at the upper end of the rear storage area.
The rotating seat 21 comprises a rotating motor arranged in the power vehicle 11, a rotating shaft sleeve 211 arranged at the upper end of the power vehicle and a rotating positioning tray 212 arranged at the upper end of the rotating shaft sleeve 211, the lower end of the rotating shaft sleeve 211 is connected with the power vehicle 11 through a first bearing assembly, and the upper end of the rotating shaft sleeve 211 is connected with the rotating positioning tray 212; the rotating shaft rod of the rotating motor is connected with the rotating positioning tray 212 after passing through the rotating shaft sleeve.
The rotating positioning tray 212 is provided with a plurality of threaded holes, and the rotating positioning tray is connected with the lower end of the lifting mechanism 4 through first rotating positioning bolts in the threaded holes.
The lifting mechanism 4 comprises a first lifting component 41 and a second lifting component 42 arranged at the upper end of the first lifting component 41, the first lifting component 41 comprises a first lower bottom plate 411, a first upper top plate and a first telescopic fence 412 arranged between the first lower bottom plate 411 and the first upper top plate, the lower end of the first telescopic fence 412 is driven by a first telescopic electric cylinder component 413 and connected with the first lower bottom plate 411, and the upper end of the first telescopic fence 412 is connected with the lower end face of the first upper top plate. The design of two lifting components can improve the convenience of whole processing installation to improve elevating system's lifting height.
The second lifting assembly 42 comprises a second lower bottom plate 421, a second upper top plate and a second telescopic fence 422 arranged between the second lower bottom plate 421 and the second upper top plate, and the second lower bottom plate 421 is connected with the first upper top plate 422 through bolts;
the lower end of the second telescopic fence 422 is driven by the second telescopic electric cylinder assembly 423 and is connected with the second lower bottom plate 421, and the upper end of the second telescopic fence 422 is connected with the second upper top plate by bolts.
The second upper top plate is rectangular plate-shaped, and the upper end of the second upper top plate is connected with a third lengthened support plate 424 for connecting the aluminum pipe main frame 31.
The third elongated support plate 424 is rectangular plate-shaped, the first bottom plate 411, the first upper top plate, the second bottom plate 421 and the second upper top plate are all plastic plates, and the third elongated support plate 424 is an aluminum plate.
The aluminum pipe main frame 31 comprises a first front cross pipe 311 and a first rear cross pipe 312, and the first front cross pipe 311 and the second rear cross pipe 312 are connected through a first left longitudinal pipe 313 and a first right longitudinal pipe 314.
A first left vertical tube 315 is connected to the left portion of the first front cross tube 311 and the left portion of the first rear cross tube 312, and a first right vertical tube 316 is connected to the right portion of the first front cross tube 311 and the right portion of the first rear cross tube 312.
The strong magnetic adsorption mechanism 5 comprises an electromagnet 51, an electromagnet electrifying wire and a first electrifying switch, wherein the electromagnet 51 is connected to the first left longitudinal pipe 313, the first right longitudinal pipe 314, the first left vertical pipe 315 and the first right vertical pipe 316, and the electromagnet 51 is connected with the battery component 12 through the electromagnet electrifying wire and the first electrifying switch.
The inner walls of the first front transverse pipe 311 and the first rear transverse pipe 312 are both provided with first pipe body notches, and the moving guide rails are arranged on the inner sides of the first pipe body notches;
the movable guide rail 32 is in a rectangular shell shape and is a plastic shell, and a positioning stepped groove is arranged in the movable guide rail 32 and comprises an inner wide groove part and an inner narrow groove part;
the electric roller assembly 33 comprises a rubber roller 331, a roller support rod 332 and a roller motor 333 connected to the lower end of the detector support 34, wherein the rubber roller 331 is connected in the inner wide groove portion, one end of the roller support rod 332 penetrates through the outer narrow groove portion and then is connected with the rubber roller 331, and the other end of the roller support rod 332 is connected with the detector support 34.
The detector bracket 34 comprises a bracket main board 341, the lower end of the bracket main board 341 is connected with two groups of electric roller assemblies 33, and the two groups of electric roller assemblies 33 are respectively connected with the lower ends of the front part and the rear part of the bracket main board 341;
the upper end of the support main board 341 is provided with a detector placing box 342, and a detector buffer foam board is adhered to the inner wall of the detector placing box 342.
The first front cross tube 311 and the first rear cross tube 312 are both combined sleeves 6, each combined sleeve 6 comprises a second left circular tube 61, a second middle circular tube 62 and a second right circular tube 63, the second left circular tube 61 is connected with the second middle circular tube 62 through a first flange ring assembly 64, and the second middle circular tube 62 is connected with the second right circular tube 63 through a second flange ring assembly 65.
Example 2
A movable assembled type building frame beam quality detection device comprises a power device 1, a lifting device 2 and a movable detection device 3, wherein the power device 1 comprises a power vehicle 11, and a battery assembly 12 and a hydraulic pump assembly 13 which are arranged in the power vehicle 11.
The lifting device 2 comprises a rotating seat 21 connected to the power vehicle 11 and a lifting mechanism 4 connected to the rotating seat 21, the movement detection device 3 comprises an aluminum pipe main frame 31 connected to the lifting mechanism 4, a strong magnetic adsorption mechanism 5 is arranged on the aluminum pipe main frame 31, a movement guide rail 32 is arranged in the aluminum pipe main frame 31, a detector support 34 is connected to the movement guide rail 32 through an electric roller assembly 33, and a frame beam quality detector 35 is connected to the detector support 34 through bolts.
The power vehicle 11 includes a vehicle frame 111, the lower end of the vehicle frame 111 is connected with a movable wheel 112, the upper end of the vehicle frame 111 is provided with a carriage, a front battery placing region, a middle hydraulic pump placing region and a rear storage region are separated from the inside of the carriage 113 through two carriage partition plates 114, and an installation slide rail 115 is arranged in each of the front battery placing region and the middle hydraulic pump placing region.
The battery assembly 12 is connected in the front battery mounting area through a mounting slide rail 115, and the hydraulic pump assembly 13 is connected in the middle hydraulic pump mounting area through the mounting slide rail 115; a storage drawer 116 is connected to the side end of the rear storage area, and a controller is provided at the upper end of the rear storage area.
The rotating seat 21 comprises a rotating motor arranged in the power vehicle 11, a rotating shaft sleeve 211 arranged at the upper end of the power vehicle and a rotating positioning tray 212 arranged at the upper end of the rotating shaft sleeve 211, the lower end of the rotating shaft sleeve 211 is connected with the power vehicle 11 through a first bearing assembly, and the upper end of the rotating shaft sleeve 211 is connected with the rotating positioning tray 212; the rotating shaft rod of the rotating motor is connected with the rotating positioning tray 212 after passing through the rotating shaft sleeve.
The rotating positioning tray 212 is provided with a plurality of threaded holes, and the rotating positioning tray is connected with the lower end of the lifting mechanism 4 through first rotating positioning bolts in the threaded holes.
The lifting mechanism 4 comprises a first lifting component 41 and a second lifting component 42 arranged at the upper end of the first lifting component 41, the first lifting component 41 comprises a first lower bottom plate 411, a first upper top plate and a first telescopic fence 412 arranged between the first lower bottom plate 411 and the first upper top plate, the lower end of the first telescopic fence 412 is driven by a first telescopic electric cylinder component 413 and connected with the first lower bottom plate 411, and the upper end of the first telescopic fence 412 is connected with the lower end face of the first upper top plate.
The second lifting assembly 42 comprises a second lower bottom plate 421, a second upper top plate and a second telescopic fence 422 arranged between the second lower bottom plate 421 and the second upper top plate, and the second lower bottom plate 421 is connected with the first upper top plate 422 through bolts;
the lower end of the second telescopic fence 422 is driven by the second telescopic electric cylinder assembly 423 and is connected with the second lower bottom plate 421, and the upper end of the second telescopic fence 422 is connected with the second upper top plate by bolts.
The second upper top plate is rectangular plate-shaped, and the upper end of the second upper top plate is connected with a third lengthened support plate 424 for connecting the aluminum pipe main frame 31.
The third elongated support plate 424 is rectangular plate-shaped, the first bottom plate 411, the first upper top plate, the second bottom plate 421 and the second upper top plate are all plastic plates, and the third elongated support plate 424 is an aluminum plate.
Example 3
A quality detection method for a movable assembly type house building frame beam adopts movable assembly type house building frame beam quality detection equipment, and specifically comprises the following steps:
when the device is used, the motor vehicle in the power device is manually pushed or driven by the motor, and all parts of the quality detection device are moved to the detection area. After reaching the detection area, the movement detection device 3 is fixedly mounted on the lifting mechanism 4, and the frame beam mass detector 35 is placed in the movement detection device 3.
The power car can be connected with an alternating current power supply of a construction site through an electric wire or powered by a self-contained battery assembly, and the rotation of the rotating seat 21 is adjusted. The lifting mechanism is a telescopic electric cylinder, and the telescopic electric cylinder can drive a fence for lifting in the lifting mechanism to rise or fall after being stretched; the lifting mechanism 4 drives the mobile detection device 3 to lift up, and after the mobile detection device 3 is lifted to a certain height, the mobile detection device 3 is connected with the building frame beam; at this time, the aluminum pipe main frame 31 in the movement detection device 3 is clamped at the lower part of the building frame beam in a U shape.
The movement detection device 3 is stably supported by the lifting mechanism, and if the frame beam quality detector moves for detection, the gravity center of the movement detection device is shifted, so that the movement detection device is unstable and is easy to cause safety accidents. Therefore, in order to ensure the overall detection stability, a strong magnetic adsorption mechanism which increases the overall stability is arranged.
Since the aluminum pipe main frame 3 is made of aluminum material, and the moving guide 32 and the detector holder 34 on the inner side of the aluminum pipe main frame are made of plastic material. Therefore, the strong magnetic adsorption mechanism 5 is electrified and generates electromagnetic force, and the strong magnetic adsorption mechanism 5 can be attracted with the steel bar frame in the concrete layer of the building frame beam. Whether the strong magnetic adsorption mechanism 5 can adsorb the concrete frame beam or not is judged, whether the concrete frame beam is internally supported by steel bars or not is judged, and whether the quality of the frame is qualified or not is determined. Under the adsorption of the strong magnetic adsorption mechanism 5, the aluminum pipe main frame 31 is tightly connected with the building frame beam through the strong magnetic adsorption mechanism 5.
At this moment, the mobile detection device 3 is very stable under the support of the lifting mechanism and the adsorption of the strong magnetic adsorption mechanism 5, the frame beam quality detector 3 is started, the frame beam quality detector 3 detects the bottom quality of the building frame beam, and detected items comprise the beam bottom concrete thickness, the beam bottom concrete surface quality and whether exposed steel bars exist. When the frame beam quality detector 3 detects, the electric roller assembly 33 moves to detect the bottom quality of the building frame beams in different areas within the range of the aluminum pipe main frame 31 one by one.
Example 4
According to the quality detection equipment and method for the movable assembly type house building frame beam, firstly, the movable assembly type house building frame beam quality detection equipment with a brand-new structure is designed, and after the equipment is used, detection technicians do not need to climb to the high altitude to detect the cast-in-place concrete frame beam. In the invention, after the corresponding equipment is installed at the bottom of the frame beam, the quality detection can be carried out by operating. In order to improve the convenience of the whole detection, an imaging device such as a camera can be connected to the frame beam quality detector to perform auxiliary observation detection. The quality detection equipment for the frame beam of the building in the invention is safer and more reliable after use, the mobile detection device can stay at a high altitude more stably and reliably under the support of the lifting mechanism and the adsorption of the strong magnetic adsorption mechanism, and the slide rail mechanism is designed in the mobile detection device, so that the detection area and length of the frame beam quality detector are increased, more detection data can be provided, and the accuracy of final test data is improved.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.
Parts which are not described in the invention can be realized by adopting or referring to the prior art.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make modifications, alterations, additions or substitutions within the spirit and scope of the present invention.

Claims (10)

1. A movable assembled type quality detection device and method for a frame beam of a building are characterized by comprising a quality detection device and a detection method, wherein the quality detection device comprises a power device, a lifting device and a movable detection device, the power device comprises a power vehicle, a battery assembly and a hydraulic pump assembly, the battery assembly and the hydraulic pump assembly are arranged in the power vehicle, the lifting device comprises a rotating seat connected to the power vehicle and a lifting mechanism connected to the rotating seat, the movable detection device comprises an aluminum pipe main frame connected to the lifting mechanism, a strong magnetic adsorption mechanism is arranged on the aluminum pipe main frame, a movable guide rail is arranged in the aluminum pipe main frame, a detector support is connected to the movable guide rail through an electric roller assembly, and a frame beam quality detector is connected to the detector support through bolts;
the detection method comprises the following steps:
moving a quality detection device to a detection area, installing a moving detection device on a lifting mechanism, and installing a frame beam quality detector on the moving detection device;
step two, the rotating seat is adjusted to rotate, and the lifting mechanism drives the mobile detection device to rise, so that the mobile detection device is connected with the building frame beam;
thirdly, electrifying the strong magnetic adsorption mechanism and generating electromagnetic force, and attracting the strong magnetic adsorption mechanism with the steel bars in the building frame beam; the aluminum pipe main frame is tightly connected with the building frame beam through a strong magnetic adsorption mechanism;
and step four, detecting the bottom quality of the building frame beam by the frame beam quality detector, and moving the frame beam by the electric roller assembly during detection to detect the bottom quality of the building frame beam in different areas in the range of the aluminum pipe main frame one by one.
2. The quality detection device and method for the movable assembled type building frame beam according to claim 1, wherein the power vehicle comprises a frame, movable wheels are connected to the lower end of the frame, a carriage is arranged at the upper end of the frame, a front battery accommodating area, a middle hydraulic pump accommodating area and a rear storage area are separated from the carriage through a carriage partition plate, and mounting slide rails are arranged in the front battery accommodating area and the middle hydraulic pump accommodating area;
the battery assembly is connected in the front battery mounting area through a mounting slide rail, and the hydraulic pump assembly is connected in the middle hydraulic pump mounting area through the mounting slide rail; the side of back storing district is connected with storage drawer, and the upper end in back storing district is provided with the controller.
3. The movable assembled type building frame beam quality detection device and method according to claim 1, wherein the rotating base comprises a rotating motor arranged in a power vehicle, a rotating shaft sleeve arranged at the upper end of the power vehicle and a rotating positioning tray arranged at the upper end of the rotating shaft sleeve, the lower end of the rotating shaft sleeve is connected with the power vehicle through a first bearing assembly, and the upper end of the rotating shaft sleeve is connected with the rotating positioning tray; a rotating shaft rod of the rotating motor penetrates through the rotating shaft sleeve and then is connected with the rotating positioning tray;
the rotary positioning tray is provided with a plurality of threaded holes and is connected with the lower end of the lifting mechanism through first rotary positioning bolts in the threaded holes.
4. The device and the method for detecting the beam quality of the movable assembled building frame according to claim 1, wherein the lifting mechanism comprises a first lifting assembly and a second lifting assembly arranged at the upper end of the first lifting assembly, the first lifting assembly comprises a first lower bottom plate, a first upper top plate and a first telescopic fence arranged between the first lower bottom plate and the first upper top plate, the lower end of the first telescopic fence is driven by a first telescopic electric cylinder assembly and is connected with the first lower bottom plate, and the upper end of the first telescopic fence is connected with the lower end face of the first upper top plate.
5. The device and the method for detecting the beam quality of the movable assembled building frame of claim 1, wherein the second lifting assembly comprises a second lower bottom plate, a second upper top plate and a second telescopic fence arranged between the second lower bottom plate and the second upper top plate, and the second lower bottom plate is connected with the first upper top plate through bolts;
the lower end of the second telescopic fence is driven by the second telescopic electric cylinder assembly and is connected with the second lower bottom plate, and the upper end of the second telescopic fence is connected with the second upper top plate through a bolt.
6. The movable assembled type building frame beam quality detection device and method according to claim 5, wherein the second upper top plate is rectangular plate-shaped, and a third lengthened support plate for connecting the aluminum pipe main frame is connected to the upper end of the second upper top plate;
the third lengthened supporting plate is rectangular plate-shaped, the first lower bottom plate, the first upper top plate, the second lower bottom plate and the second upper top plate are all plastic plates, and the third lengthened supporting plate is an aluminum plate.
7. The equipment and the method for detecting the quality of the frame beam of the mobile assembled building and construction according to claim 1, wherein the aluminum pipe main frame comprises a first front transverse pipe and a first rear transverse pipe, and the first front transverse pipe and the second rear transverse pipe are connected through a first left longitudinal pipe and a first right longitudinal pipe;
the left part of the first front transverse pipe and the left part of the first rear transverse pipe are both connected with a first left vertical pipe, and the right part of the first front transverse pipe and the right part of the first rear transverse pipe are both connected with a first right vertical pipe;
the strong magnetic adsorption mechanism comprises an electromagnet, an electromagnet electrifying wire and a first electrifying switch, the first left longitudinal pipe, the first right longitudinal pipe, the first left vertical pipe and the first right vertical pipe are all connected with an electromagnet, and the electromagnet is connected with the battery pack through the electromagnet electrifying wire and the first electrifying switch.
8. The device and the method for detecting the quality of the frame beam of the movable assembled building and construction according to claim 7, wherein the inner wall of the first front transverse pipe and the inner wall of the first rear transverse pipe are both provided with a first pipe body notch, and the movable guide rail is arranged at the inner side of the first pipe body notch;
the movable guide rail is in a rectangular shell shape and is a plastic shell, a positioning stepped groove is arranged in the movable guide rail, and the positioning stepped groove comprises an inner wide groove part and an inner narrow groove part;
the electric roller component comprises a rubber roller, a roller supporting rod and a roller motor connected to the lower end of the detector support, the rubber roller is connected to the inner wide groove, one end of the roller supporting rod penetrates through the outer narrow groove and then is connected with the rubber roller, and the other end of the roller supporting rod is connected with the detector support.
9. The device and the method for detecting the quality of the frame beam of the movable assembled type building frame according to claim 1, wherein the detector bracket comprises a bracket main board, two groups of electric roller assemblies are connected to the lower end of the bracket main board, and the two groups of electric roller assemblies are respectively connected to the lower ends of the front part and the rear part of the bracket main board;
the upper end of support mainboard is provided with the detector and places the box, and the adhesion has detector buffering cystosepiment on the inner wall that the box was placed to the detector.
10. The device and the method for detecting the quality of the frame beam of the movable assembled building and construction frame according to claim 7, wherein the first front transverse tube and the first rear transverse tube are combined sleeves, the combined sleeves comprise a second left circular tube, a second middle circular tube and a second right circular tube, the second left circular tube is connected with the second middle circular tube through the first flange ring assembly, and the second middle circular tube is connected with the second right circular tube through the second flange ring assembly.
CN202111268026.0A 2021-10-29 2021-10-29 Mobile assembly type house building frame beam quality detection device and method Pending CN113984101A (en)

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